Elevator.



0. 0. PEARSON.

ELEVATOR.

APPLIQATIQN FILED MAR.12,1909. RENEWED DEO.11, 1909 990,498. Patented Apr. 25, 1911.

SHEETS-SHEET 1.

8 no 0 H'oc:

G. O. PEARSON.

ELEVATOR.

APPLICATION FILED MAR. 12, I909. RENEWED DEC. 11, 1909. 990,493, j Patented Apr. 25, 1911.

6 SHEETS-SHEET '25 Ig y. W

UNIlfllllllllllllllllllllfl 5 Svwcwtoz: I 3% mad/ Wm C. O. PEARSON.

ELEVATOR.

APPLIOATION FILED MAR. 12, 1909. RENEWED DEG.11,1909.

990,493. Pat nted Apr. 25, 1911.

v I s SHEETSSHEET 3.

0'. 0. PEARSON. ELEVATOR.

APPLICATION FILED MAR. 12, 1909. RENEWED D EO. 11 1909. 990,493. Patented Apr. 25, 1911.

/ 6 SHEETSSHEBT 4.

O. 0. PEARSON.

ELEVATOR. APPLICATION mum MAR.12, 1909. RENEWED DBO. 11, 1909. A93,v Patenisefi M11225, 1911. G'BHEBTS-SHEET a.

C. O. PEARSON.

ELEVATOR. APPLIOATION FILED MAR.1Z, 1909. RENEWED DEC. 11, 1909.

99A939 Patented A102. 25, 1911.

6 SHEETS SHEET 6. m? #3 3 63 UNITED STATES enemies o. PEARSON, or NEW YORK, N. Y., AssIoNon To one ELEVATOR oomr'nnv,

PATENTQFFICE.

or ANIII'W YomcN. Y.,, Acon'PoRA'rIoN or New; JERSEY.

.Speclflc'ation of Letters Patent.

Pa-tented'Apr. 25, 1911:

Application filed March 12. 1909, Scria1.1l o. 483,l)86. Renewed December 11, 1909. Serial 'No. 532,673.

To all whom it may concern:

a citizen of the Unitcd'States, and a resident of the boroughof Brooklyn, in the county of Kings, city and State of New York, United Qtates of Ani'ericzu have in.-

. vented certain. new and useful Improvemerits in'.Ele vat0rs, of which the following a specification. My invention relates to elevators and its object is to arrange an elevator apparatus of the frictioirdrive' or so-called traction type to provide for an internal combustion cn ine' being used as the motivepower.

lhe invention resides in .the .constr'uction and combination of parts herein shown and described, by means of'wh'i ch I attain the above object and at the same time obtain a simple and positive control of the car and the other parts of the apparatus,

Other objects .of my invention will appear in the following specification in which I will describethe construction and are rangeinent-of my improved apparatus, and the novel features of which I will set forth in the appended claims.

Referring to the drawings, Figure 1 is a side elevation, partly in section, of-an elevator embodying my invention. Fig; 2 is a side elevation of the engine and-some of its connected parts with. its bed-plate and throttle valve shown in section. Fig.

aside elevation, partly in section, of the throttle valve with' its speed governor and controlling device. 5 Fig.4 is a sectional side elevation of the electromagnetic controlling device. In Fig. o I have shown in by the engine.

clearly illustrate its construction.

end elevation a sparking magneto and someof its associated arts. FigsQG andT-a're sectional end and side elevations, respectively, of a pumping apparatuswhich is connected with and arranged to -be driven Fig. 8 represents inside elevation a fluid pressure-motor. ,One half of thismotoris drawn in sectionfto'more Fig. 9 is a sectional end elevation-of a portion of this-motor, the section of this figure bei have shown in sectional p an view a detail nected parts.- -Fig. His a. sectional; end

elevation of the central portion of the inn, tor showing its crank-shaft and the meniner in whichthevarlous ports of the motor In Fig:

tional side elevation of a magnetic rope: drive or traction sheave. Fig. 13 is a frog mentary IEEIIVIGW of thls traction sheave.

an el'eetromagnetically actuated brake in end elevation. In Fig; 15 is shown in sectional side elevation an electromagneti slly actuated fluid-reversing valve. Fig.3 is a front elevation of. the controlling switch or cur switch with its cover-plate removed. Fi 17 is e wiring diagram showing certain electrical circuits and so much of the apparatus as is necessary to illustrate the manner .in which these parts are connected.

Like characters 'of reference designate corresponding parts in all of the figures. l0 designates the baseupon which certain parts of the apparatus are mounted- 20 is an internal combustion engi may be of -anyd pproved style or type. In this case I have shown it as a four-cylinder four-cyclev engine of which 21 is the intake or supply pipe,,and 22 the exhaust. 23 are water pipes through which water from a pum 24, which is driven by theengine, is circu ated through its cooling jacket. As

ent invention I will not further describe its .parts. U

25 is a canb'ureter connected with a fuel supply by the. ipe 26, and with the intake of the engine t rough the cylinder 27 of a -throttle valve, the piston of which is designated by 28. 29 is a piston rod connected with this piston. I

30 is a. centrifugal speed governor, the

shafh-3l of. which, is driven by the engine throu' h gearing 32. This governor is connectetl by a bell-crank lever 33 which is ivoted "at 34 withthe. piston rod 29. T

arts are soarranged. that the throttle valve '15 closed or partly closed automatically when the, engine reaches apredetermined speed, preferably somewhat less than its maximum;

amount-of closure of the throttle valve.

' The loweri'arm 36 ofthe bellcrank lever is arranged to sustain the lungers or cores- ,by a. plurality of solenoi s 37, 38 and 39' noids or electronia'gnets are arranged, when successively energized, to. move the throttle valve open in a plurality of steps;

. ahigh tension magneto driven by'the' showing its :co'ntact, strips. Fig. 14- shows me which areconnected therewith. Fig. 12 is a sec .Be it known that I, CHARLES O. PEARSON,

the engine itself forms no part of the pres- 35 is an adjustable stop for-limiting the which are aflixed' to the base. 10. These sole engine by means of gearing 41 on the end of the governor shaft 31. This magneto is. suitably connected with the sparking device ofthe engine and is provided wit-ha sparkregulatinglever 42' which may be electromagnetically actuated by asolenoid43.

'50 is a pumping apparatus of whichthe.

main shaft 51 is. directly coupled with the engine shaft. This may be of any desired type. I have found that a rotary pumping apparatus, such'as that shown somewhat in de tailin Figs. 6 and 7, is a satisfactory kind for the purposes of this invention. In this case 52 designates a casing, the lower por- 1 ample, as a thin lubricating oil.

' each compartment is open as at 58 and there-' tion' of which is constructed to form a reservoir or discharge tank for. the fluid 53. Any suitable fluid may be used, but I prefer to 'use a non-compressible fluid such, for ex- Vithin this casing is a frame 54 which formsa plurality of inner compartments preferably of different widths. The shaft 51 passes through all of these compartments, and has keyed to it a number of gears 55, one for each compartment. These gears are arranged to fit closely againstthe sides and .ends of the compartments and are in mesh.

with a similar set of'gears 56 upon an auxiliary shaft 57 which issupported in the ends of the casing 52. The lower portion of fore in direct communication with the reser voir. ment is provided with a discharge port 59. Directly above each of. these ports is a valve 3 60 which I will now describe. 61 is its noi pump itself.

ton, behind which is a spring 62 which tends to push the piston over into the position in "which it is shown in Fig. 6. 'VVhen in this .position a. free passage is provided between the pump discharge port 59 and its intake port 59*, so that the fluid which is forced up- .ward by the gears will rculate 'within'the $3 is a solenoidso connected with the piston 61 by mechanism 64 that when it is energized it will move the piston inward until it closes the pump intake port 59. It may be seen from the construction illustrated that the dpiston may be balanced. so that the solehas'only to overcome the compression -.'of the spring and the friction of the moving parts, If the valve is'thus moved inward the rotating gears will force the fluid upthrough I p' 'ort 59 and through a port 65 which is con-- trolled by a check-valve 65 into a pressure -The parts above described are duplicated chamber.

The upper portion of each compart-- partment. -The chamber 66, however, is

within one continuous casing which extends over all of the pump compartments. An air cushion 67 is connected with this pressure 68 is a port controlled by an adjustable relief valve 69 leading frointhe pressure chamber into the outer casing 52 and arranged to allow fluid' within the pressure chamber to flow back into the reservoir whenever the pressure exceeds a desired limit. 4

The motor shown in Figs. 8, 9, 10 and 11 is a single-acting fillld pressure engine having two sets of three cylinders equally spaced about a central shaft. The engine I have designated in the drawings by the numeral 70. As. all of the cylinders and pistons are of similar construction I will describe but one of them. 71 is the cylinder and 72 its port'which alternately serves as an intake or dischargeport. 73 is a passage connect-- ing this port with the valve 80 which I will later describe. In Fig. 10 is shown the manner in which the parts forming the cylinder and the passage are connected together. 74; is a piston and 75 a connecting rod between the piston and the crank 76 which isofi'set from the main shaft 77. The end of the connecting rod is constructed as shown a t,78 to abut against the crank and to formshoulders over which are fitted rings 79 which hold it in place. These parts are duplicated for each of the six cylinders. Fig. 11 shows that there are two cranks from the shaft 77 spaced 180 apart, and illustrates the manner in which the six connecting rods are connected therewith.

I will describe the valve 80 as shown in the left-hand portion 'of Fig. 8. 81. is a cylindrical casing, the upper portion of which is connected with the passage 73. The

lcft-hand'portion of this-'casmgis oonnecting apparatus 5( in mannerwhich Iwill fully describe herema-fter. Other passages similar to 73, disposed about the casing 81 at-intervals of connect with'the other two cylinders of this left-hand set. The

.three -ri ht-hand cylinders are" similarly con'necte with another rotary valve like that just described.

The type of motor above described is not a part of the present invention, nor do I limit myself f0 this or any other specific type of motor, but I have'briefiy described this one as it is well adapted for use in.eombina-.

tion with the other apparatus herein described. It has, the advantages of being perfectly balai iced,' producing an even torque, and being free from dead centers.

90 is a reversing valve between the pumpto provide paths of communication between.

the pipes 88 and 89, and 87 and 88, respectively. When the piston 92 is moved over valve to the rightthese connections are reversed and pipes 86 and 88, and 87 and 89 are put into communication.

' 93 is 9. piston rod aflixed to one end of the iston and connected with a movable core 9 of a solenoid 95. This solenoid is supportedby a frame 96 projecting-from one end of the valve casing 91. \Vhen this solenoid is energized it will pull the piston over into the position shown in the draw-- At the other end of piston 92 is a ings. piston rod 97 which is connectedwith a core 98'of a solenoid 99. i

100 designates a rope sheave of special construction which is keyed to a shaft 101 supported in pedestal bearings 11 and 12 upon the base 10. A gear 102 is also keyed to this shaft. 108 is'a pinion aflixed to the motor shaft 77 and in mesh with the gear 102; It is obvious that the rotation of the motor in either direction will be transmit:

ted to the shaft 101 by this mechanism.

, somewhatin detail in Figs. 12 and 13.

The construction of. the sheave is shown It comprises a portion 104 which forms the hub and rear fia'ngeof the sheave, a front flange 105, and a rim 106 between these .por-

tions, which'rim may be built up of separate layers of alternate magnetic and nonmagnetic material as shown. The portions 104 and 105 are constructed of iron or'other magnetic material and within them is a winding 107, the terminals of which are connected with contact rings 108 and 109 7 ing through the coil 107. 11.0 is a brakepulley rigidly aflixed t which are insulated from but supported by the rear face of the rear flange. Against these contact rings bear brushes 108 and 109*. This form of sheave is used to increase its tractive effect upon the driven;

ropes which result is obtained' by the magnetization of the parts by the current passthe shaft 101. Brake-shoes 111 which are supported in levers .112 piloted near thebase 10 at. 113, are arranged to be forced travel.

against this pulley by-compression springs 114. 115 is a solenoid which is arranged when energized to pull a pair of cores together,

yand through levers 116 to force the brakeshoe levers 112 apart to release the shoes.

117 designates ropes or cables of the usual magnetic material which are run over the sheave 100 and to the car 118 and counterweight 119, to both ofwhich they are affixed. The car and counterweight are held at rest by the brake above described. or are driven up or. down by the rotation of the driving sheave 100.

The automatic stop-switch 120 which is shown in Fig. 1 and more in detail in the wiring diagram in Fig. 17, is not a part of this invention. I will therefore but briefly describe it. It comprises a switch-arm 121 which is arranged to be 'actuated by the movement ofthe car by means of a roller 122 on the car engaging a rope or cable 123 as the car nears the upper limit of its travel. and a similar switch-arm 121 actuated by the roller 125 on the car engaging a rope 126 as the car reaches the lower limit of its It will not be necessary to further describe this device, except in pointing out w the operation of the invention as other forms of automatic limit-switches may be'used instead if desired.

130 is a 'manually o erable' cont-rolling switch which is preferab y placed in the car. It is shown in Figs. 16 and 1-7 and comprises acontact lever 131 which is arranged to be moved to one side or the other over certain fixed contacts to controlthe operation of the elevator driving machinery. I will. describe itmore .fully in'conjunction with the operation-of the other parts of the appuratus. I g

When it is desired to use this elevator system the engine 20 is first started up and will run continuously under the control of the governor 30. As the dynamo 44 is mechanically connected with the engine it will create an available source of electrical energy. While the car is atrest no powerwill be consumed-except that necessary to overcome the frictional resistance of these parts and that of the pumping apparatus 50. When the'operator desires to run the car up he will move the switch-arm 131 to the right. 132

.is a conductor from the generator lead 49 to the switch-arm; This first movement will close a circuit through one of the stationary contacts and its connected conductor 133 whichleads through the automatic stopswitch 120, through solenoid winding 95,-

and by conductor 134 to the other generator lead 48. This will insure the reversing valve piston being drawn over to the left.

Afurther movement of the switch-arm closes a circuit through conductor 135, through the a winding of a relayand back by-a conduetor l3 to the generator; This relay is arranged to close at its contacts 141, c1rcuits through the brake winding 115, and the sheave-energizil'ig winding 107, through conductors 142 and 1 13 which are connected with the generator. The next circuit to be closed is that through conductor 136, wind ing 43 and conductor 137 which causes the magneto 4:0 to be shifted to advance the ignilion spark for the engine 20 to increase its speed. The fourth step of the operation will be the energization of the first pump solenoid (33 through conductors 138 and 143 which will cause the first section of the pumping apparatus to force fluid under pressure through the hydraulic motor 70 which will then rotate and drive the sheave 100 and the car 118. The power of the engine is then available for driving the 20 fluid by this one small section of the pump which will therefore force but a small quanlitv oi the fluid through the motor 70 at a great pressure limited only by the power ot the engine and the elliciency of the pump.

Consequently the *ar will be driven slowly but with great force as the torque of the motor 70 under these conditions will be high. The tour succeeding steps of operation will accelerate the motor and the car by energizing the pumping magnets 63, 63 63 and 63 successively through conductors 139, 144. 14-5 and 1 .116. These, it may be seen throw into operation the remaining portions of the pumping apparatus in a plurality of steps and cause the latter to deliver the fluid to the motor 70 'in increasing quantities but at proportionately decreasing pressures. Thus the speed of the driving motor will be increased if the load on the car is not heavy.

40 This means that any practical load on the car may be driven at some speed and that such speed may be as high as the amount of the load and the power of the engine will permit. In. this connection itmay be noted 15 that the number of the sections of the pumping apparatus may be increased it it is desired to have a greater number of steps of acceleration. The air chamber 67 between "the pump and the motor will produce a cushioning effect so that the'accelerationwill be smooth and gradual. The speed of the motor and ot the car cannot be greater than the, circulation ol the fluid through the motor and the pump will allow. Therefore the ear cannot race or run away. After t-l'lese operations. a further movement of the controlling switch will close a circuit through conductor 14-7, solenoid winding 37, and conductor 137. and the energization of this winding will cause the arm 36 to be pulled down a certain amount to open the throttle valve 28 against the action of the governor 30. Solenoid windings 08 and 39 may similarly be energized through conductors 1&8

and 149 to increase the amountof opening of the throttle valve. These operations will increase the speed of the engine 20 and consequently that of the pump. the engine, and the ear. I have shown three steps of this electromagnetic accelerator, but obviously a greater or less number of steps may be employed, according to the refinement of 0peration required,

The above operations may be reversed to slow down or stop the car. It is to be understood that all of the conductors from the carswitch to the other parts of the. ap-

paratus, except that one designated by 132,

are run through the automatic stop-switch 120. When the car reaches the upper limit of its.travel and actuates the switch-arm 121 this will break the various circuits above traced in the same order as they will be broken when the operator returns the carswitch lever to its central posit-i on and will 'thus insure a gradual and positive stop of the car at the upper limit of its travel.

\Vhen the car-switch lever is moved to the left instead of to the right the above operations will be repeated, except in this case the winding 99 of the reversing valve will be energized-to cause the motor to run in the opposite direction, and the various circuits will be led through that part of the automatic stop-switch which is controlled by the switch-arm 124, and is actuated by the car at the lower end of its run.

Such an arrangement as is herein disclosed is applicable to other types of elevators than the simple form shown. One of the obvious modifications would be to use a winding drum in place of the traction sheave. and it is to be understood that some of the claims which specify a driving sheave contemplate the use of a winding drum as an equivalent..- The hydraulic or fluid pressure transmission gearing is especially effective for transmitting the power generated by an internal. combustion engine to elevators as the engine may be continuously run at a practically constant rate of-speed and the driving effect is greatest at the low speeds so that a car may be easily started and may be readilycontrolled ;in making landings, for the car may be slowed down as much as desired and stopped at a certain point positively. The power consumed by the 'ap paratus will be proportional to the actual Work done. I

The brake is not applied until the driving power is "shut off and is added only as a safeguard for holding the car at rest. The hydraulic motor itself also acts as a brake to hold the parts at rest.

T have shown the enigne and pumping apparatus mounted upon a common base with the motor and hoisting mechanismi It is evident that this is not necessary, for these parts may be placed in different rooms, or even in diflerent'buildings if-desired so long and electrical conductors. The engine which creates the driving power for the car also causes the electrical energy by which the control is effected to be generated. Such an elevator system as I have described is especially applicable for heavy duty elevators such as are in common use in office buildings where the apparatus is in almost constant use during certain hours of the day.

VVhat'I claim is 1. In an elevator, a car, a hoisting apparatus, comprising a driving sheave, connections between the car and the sheave, an internal combustion engine; and'a fluid pres-- sure power transmission mechanism between the engine and the sheave, said mechanism comprising a .fluid pressure motor.

2. In an elevator, a car, a hoisting apparatus comprising a driving sheave, cable connections betweenthe car and the sheave, an internal combustion engine arranged to run in one direction, and a fluid pressure power transmission mechanism betweenwthe 9 engine and the sheave, said mechanism com prising a fluid pressure motor and a reversing valve therefor.

3. In an elevator, '21 car, a hoisting appacable' connections between the car and hoisting apparatus, an internal combustion ie, a fluid pressure power transmission mechanism between the engine and the hoisting apparatus, and means for controlling,

said transmission mechanism from the car.

4. In an elevator, a car, a hoisting apparatus comprising a driving sheave, cable connections between the car and the sheave, an internal. combustion engine arranged to run in one direction, a fluid pressure power transmission mechanism between the engine and the sheave, said mechanisnicomprising a fluid. pressure motor and a reversing valve therefor,. and means for, controlling the transmission mechanism and the reversing valve from the car.

5'. In an elevator, a car, a hoisting apparatus comprising a driving sheave, cable connections between the car and the sheave, an internal combustion engine arranged to run in one direction, a fluid pressure power transmiss'ion mechanism between the engine and the sheave, said mechanism comprising a reversible fluid pressure motor and a reversing valve therefor, and manually operated=means in the car for controlling the transmission mechanism and the reversing xalve. V I, i

O. In an elevator, a car, a hoisting apparatus comprising a driving sheave, cable connections between the car and said sheave, an internal combustion engine, a fluid pressure power transmission mechanism between the sheave and the engine, an electrical control system for'the transmission system, and a manuaiiy operatedswitch inthc car.

7. In an elevator, a car, a hoisting apparatus comprising a driving sheave, cable connections between the car and said sheave, an internal combustion engine, a pumping apparatus arranged to be driven thereby, a fluid pressure motor connected with said sheave, and means for controlling said pumping ap aratus from the car.

8. In an e evator, a car, a hoisting apparatus comprising a driving sheave, cable connections between thecar and said sheave, an

internal combustion engine, a pumping ap-' paratus arranged to be driven thereby, a

fluid pressure motor arranged to drive said" sheave, a reversing valve for the motor, and means for controlling said pumping apparatus and Valve from the car.

9. In an elevator, a car, a hoisting apparatus comprising a driving sheave, cable connections between the car and said sheave, an internal combustion engine, a pumping apparatus arranged to be driven thereby, an

electroresponsive device for controlling said pumping apparatus, a fluid pressure motor actuated by fluid. from the pumping apparatus and arranged to drive the sheave, and

a switch in the car for controlling the electroresponsive device.

10. In an elevator, a car, a hoisting apparatus comprising a driving sheave, cable con nections between the car and said sheave, an internal combustion engine, a pumping apparatus arranged to be driven thereby, an electroresponsive device for controlling said pumping apparatus, a fluid pressure motor actuated by fluid from thepumping apparatus and arranged to drive the sheave, an electromagnetically actuated reversing valve for the motor, and ajswitch in the car for controlling the electroresponsivc device and the valve. I

- 11.- In an elevator, a car, a hoisting apparatus comprising a driving sheave, cable connections between the car and said sheave, an internal combustion engine, a pumping apparatus arranged to be driven thereby, said 'pumping apparatus comprising a plurality of sections, electromagnetically actuated valves for controlling said pumping apparatus, a fluid pressure motor actuated by fluid under pressure from the pumping apparatus and arranged to drive the sheave, an elcctro magnetically actuated reversing valve for the motor, and a switch in the car for controlling the pump valves and the reversing valve.

12. In an elevator, a car, a hoisting'apparat-us comprising driving sheave, cable connections between the car and said sheave, an internal combustion engine, a pumping apparatus arranged to be driven thereby. said pumping apparatus comprising a pinrality of independently operable sections, electromagnctically actuated valves for controlling each .ot said sections, a Fluid pressure motor actuated by fluid under pressure from the min MD" a) Jaratus and arran ed to drive the sheave, an electromagnetically' actuated reversing valve for the motor, and a manually operated switch in the car for actuating one or more of the pump valves andthe reversing valve.

13. In an elevator, a car, a hoisting apparatus comprising a driving sheave, cable connections between the car and said sheave, an internal combustion engine arranged to run in one direction at a practically constant rate of speed, a pumping apparatus arranged to be driven by said engine, said pumping apparatus comprising a plurality of independently operable sections, electromagnetically actuated valves for controlling each of said sections, a fluid pressure motor actuated by fluid under pressure from the pumping apparatus and arranged to drive the sheave in either direction and at different speeds, an electrically actuated reversing valve for the motor, and a manually operated switch in the car for actuating one or more of the pump valves and the reversing valve to vary the speed of the motor and to determine its direction of rotatioia.

14. In an elevator, a car, a hoisting apparatus comprising a driving sheave, cable connections betilveen the car and said sheave, an internal combustion engine arranged to run in one direction, a speed governor therefor, a pumping apparatus directly connected with the engine, said pumpii g apparatus comprising a plurality of indep ndently operable sections,electromagnetic ly actuated valves for controlling each of said sections, a fluid pressure motor actuated by fluid under pressure from the pumping apparatus and arranged to drive the sheave in either direction and at different speeds, an electromagnetically actuated reversing valve for the motor, an electromagnetic accelerator for the engine, and,a manually operated carsu'itch for controlling the pump valves, the reversil'ig valve and the accedefiator.

15. In an elevator, a car, a lidisting apparatus comprising a driving sheave, cable connections between the car and saitl sheave, an internal combustion engine arrangedto run in one direction, a throttle valve for the engine, a speed governor driven, by the engine and arranged to act upon the throttle valve to control the speed of the engine, a pumping apparatus directly connected with the engine, said pumping apparatus comprising a plurality of independently operable sections, clectromagnetically actuated valves for controlling each of said sections, a fluid presure motor actuated by fluid under pressure from the pumping apparatus and arranged to drive the sheave in either direction and at different speeds, an electromagnetically actuated reversing valve for the motor, an elect rmnagnetic a celerator ar ranged to act upon the throttle valve to increase the speed of the, engine, and a manually operated car-switch for controlling the pump valvcs the reversing valve and the accelerator.

1.6. In an elevator, a car, a hoisting apparatus comprising a driving sheave, cable connections between the car and said sheave, an internal combustion engine arranged to run in one direction, a throttle valve for the engine, a speed governor driven by the engine and ar'anged to act upon the throttle valve to control the speed of the eng ne, a rotary pumping apparatus directly connected with the'engine, said pumpin r apparatus comprising a plurality of independently operable sections of different capaci ties, valves for controlling each of said sections, electromagnetic means for operating said pump valves, a fluid. pressure motor actuated by fluid under pressure from the pumping apparatus and arranged to drive the sheave in either direction at different speeds, an electromagnetieally actuated revcrsing valve for the motor, an electromagnetic accelerator arranged to act in a plurality 01'' steps upon the throttle valve to increase thespeed of the engine, a Wiring system. and a manually operated car-switch for controllingthe pump valves, the reversing valve, and the accelerator.

1. In an elevator, a car, a hoisting apparatus comprising a driving sheave and an elcctromagnetically actuated brake for the sheave, cable connections between the ear and said sheaves, an. internal combustion engine arranged to run in one direction, a speed governor therefor, a pumping apparatus directly connected With the engine, said pumping apparatus comprising a plurality of independently operable sections, electromagnetically actuated valves for controlling each of said sections, a fluid pressure motor actuated by fluid under pressure from the pumping apparatus and arranged to drive the sheave in either direction and at difl'erent speeds, an electi'oniagnetically actuated reversing valve for the motor, an electromagnetic accelerator for the engine, and a manually operated car-switch for controlling the brake, the pump valves. the reversing valve and the ac elerator.

18. In an elevator, a. car, a hoisting appa ratus comprising a magnetic driving sheave, airrncrgizing winding for said sheave, and an electromagncticallv actuated brake; cable connections between the ca r and said sheave, an internal combustion engine arranged to run in one direction, a throttle valve for the engine, a speed governor driven by the engine and arranged to act upon the throttle valve to control the speed of the engine, a pumping apparatus directly connected With the engine, said 'nuuping apparatus comprising a plurality of independently operable sections, electromagnetically actuated internal combustion engine arranged to run in one direction, a speed governor therefor, a pumping apparatus dlrectly connected wlth the engine, said pumping apparatuscomprising a plurality of independently operable sections, electromagnetically actuated valves for controlling each ofsaid sections, a fluid pressure motor actuated by fluid under pressure from the pumping apparatus and arranged .to drive the sheave 1n either direction and at diiferent speeds, an electroniagnetically actuated reversing valve for the motor, an electromagnetic accelerator for the engine, a manually operated car-switch, and an automatically operated limit-switch for controlling the pump valves the reversing valve, and the accelerator.

20. In an elevator, a car, a hoisting apparatus comprising a magnetic driving sheave, an energizing winding for said sheave, an electromagnetically actuated brake; cable connections between the car and said sheave, an internal combustion engine arranged to run in one direction, a throttle valve for the engine, a speed governor driven by the englue and arranged to act upon the throttle valve to control the speed of the engine, apumping apparatus directly connected with the engine, said pumpin apparatus comprising a plurality of lIl( epend'ently operable sections, electromagnetically actuated valves for controlling each of said sections, a fluid pressure motor actuated by fluid undcr pressure from the pumping apparatus and arranged to drive the sheave in either direction and at different speeds, an electro-- magnetically actuated reversing valve forthe motor, an electromagnetic accelerator arranged to act upon the throttle valve to increase the spced of the engine, a manually operated car-switch and an automatically operated limit-switch for controlling the sheave winding, the broke, the pump valves, the reversing valve and the accelerator.

21. In an elevator, a car, a hoisting apparatus comprising a driving sheave, an energizing windin for said 'sheave,"andan electromagnctica l-y actuated brake; cable connections between the car and said sheave,

an. internal combustion engine arranged to run in one direction, a throttle valve for the engine, aspeed governor driven by the engine and arranged to act upon the throttle valve to control the speed of the engine, a rotary pumping apparatus directly con nected with the'engine, said pumping apparatus comprising a plurality of independently operable. sections of different capaci ties, valves for'controlling each of said sections, electromagnetic-means for o eratmg said pump valves, a multiplev c inder 'reciprocatory motor actuated by flui under pressure from the pumping apparatus and arranged to drive the sheave in either direction and at different speeds, an electromagnetically actuatedTeversing valve for the motor, an electromagnetic accelerator arrangedto act in a plurality. of steps upon the throttle valve to increase the speed of the engine, and a wiring systemcom rising a manually operated car-switch anauto-. matically operated limit-switches for controlling the sheave winding, the brake, the pump valves, the reversing valve, and the accelerator.

22. In an elevator, a car, a hoisting apparatus comprisin tions between he car and said sheave, an internal combustion engine, an electric generator mechanically connected therewith, and a variable speed fluid pressure power transmission mechanism between the engine and the sheave, the engine being arranged to supply power for driving the hoisting apparatus, and the generator to supply energy for controlling the transmission mechanism. 23. In an elevator, a car, a hoisting apparatus comprising a driving sheave, connecticns between the car and said sheave, an internal combustion engine, an electric generator mechanically connected therewith,

and a variable speed fi'uid pressure power' transmission mechanismbeiiveen the engine and the sheave, the engine being arranged to supply power for driving the hoisting appa ratus, and the generator to supply energy for controlling the transmission mechanism and the hoisting apparatus.

2%. ln an elevator, a car, a hoisting apparatus comprising a driving sheave, cable connections between the car and said sheave,

an internal combustion engine, an electric generator mechanically connected therewith,

4 a variable speed fluid pressure power transmission mechanism between the engine and a driving sheave, connecthe sheave, and an electromagnetically actuated control system, said generator being arranged to supply current for the control system 7 1 25. In an elevator, a car, a hoisting apparatus comprising a driving sheave, cable connections between the car and said sheave, an internal combustion engine,'an electric generator mechanically connected therewith, a variable speed fluid pressure power trapsmission mechanism between the engine and the sheave, an electromagnetically actuated control system, said generator being arranged to'supply current for the control system, and a car-switch for controlling said current.

26. In an elevator, a car, a hoisting apparatus comprising a driving sheave, cable connections between the car and said sheave, an' internal combustion engine, an electric generator mechanically connected therewith, a variable speed fluid pressure power transmission mechanism between the engine and the sheave, an electromagnetically actuated control system, said generator being arranged to supply current for the control system, a manually operated car-switch, and

an internal combustion engine, an electric' generator mechanically connected therewith,

a fluid pressure power tlflIlSD'llSSlOll mecha nism between the engine and the sheave, and electromagnetic means for controlling said mechanism, the generator being arranged to supply current fori actuating said electromagnetic means.

29. In an elevator, a car, a hoisting apparatus comprising a driving sheave, cable connections between the car and the sheave, an internal ,combustion engine, an electric generator mechanically connected therewith, a fluid pressure power transmission mechanism between the engine and the sheave, said mechanism comprising a pumping appara tusdriven bythe engine valves for controlling the output of said pumping apparatus, and electroinagnetic'means for actuating the valves, said: generator being arranged to supply current -for the electromagnetic valve actuating means. i

30. In an elevator, a car, a hoisting apparatus comprisinga driving sheave,cable con nections between'the car and the sheave, an

internal combustionengine, an electric-generator mechanically" connected therewith, a fluid pressure power transmission mechanism between the engine and the sheave, said i'neclianisn'i comprising a pumping apparatus driven by the engine and a fluid pressure motor, valves for controlling the output of said pumping apparatus, electromagnetic means for actuating the valves, and an'electroniaguetically actuated reverssee lee ing valve for the motor, said generator ing arranged to supply current for actuatingthe pump valves and the wersing valve.

' In an elevator, a car, a hoistiingupparatus comprising a driving sheave, cable connections between the ear and the sheave, an internal combustion engine, an ciectri" generator mechanically connected tl1er .:with, an electrt'n'nagnetic accelerator for the engine, a fluid. pressure power transmission mecha nism, said mechanism comprising a pumping apparatus driven by the engine, valves for controlling the output of said pumping apparatus, electromagnetic means for actu ating the valves, and an electromagnetically actuated reversing valve for the motor, said generator being arranged to supply current for actuating the pump valves and the reversing valve.

32. In an elevator, a car, a hoisting apparatus comprising a driving sheave, means for magnetizing said sheave, cable connections between the car and the sheave, an iuternal combustion engine, an electric generator mechanically connected therewith, a fluid pressure power transmission mecha- IllSII'l between the engine and the sheave, said mechanism comprising a pumping apparatus driven by the engine, elcctromagnetically actuated valves for controlling the pumping apparatus, said generator being arranged to supply current for magnetizing the sheave and actuating thevalves, and means for controlling the current from the car.

In an elevator, a car, a hoisting apparatus comprising a driving sheave, means for magnetizing said sheave, ftlblt? connections between the car and the sheave an internal combustion engine, an electric generator mechanically connected therewith, a fluid pressure power transmission mechanism between the engine and thesheave,

said mechanism comprising a pumping apparatus driven by the engine, and a luid pressure motor; valves for controlling the output of the lDtllTil'Jlllg apparatus, electromagnetic means for actuating said valves, an electromaguetically actuated reversing valve for the motor, said generator being arranged to supply current for actuating the pump valves and the reversing valve, and a car-switch for controlling said current.

34. In an elevator, a car, a hoisting apparatus comprising a driving sheave, cable connections between the car and the sheave, an internal combustion engine, an electric generator mechanically connected therewith, a fluid pressure power transmission mechanism between the sheave and the engine, and

an electrical control system for the trans mission system, said generator being arranged to supply current for the control system.

or T V w I). U). an elevator, a cat, a hoisting appa- .prising a pluralit connections between the car and the sheave, I

an internal combustion engine, an electric generator mechanically connected therewith, a fluid pressure powertransmission mechanism between the sheave and the engine, an electrical control system for the transmission system, said generator being arranged to supply current for the control system, and a manually operated switch in the car.

36. In an elevator, a car, a hoisting apparatus comprising a driving sheave, cable crmaections between the car and the sheave, an" internal combustion engine, an electric generator mechanically connected therewith, a pumping apparatus arranged to be driven by the engine, electromagnetically actuated valve mechanisu'i for controlling the pumping apparatus, a fluid pressure motoractuated by fluid from the pumping apparatus and arranged to drive the sheave, said generator being arranged to supply current for actuating the electrorcsponsive device, and a car-switch for controlling said current.

37. In an elevator, a car,'a hoisting apparatus comprising a driving sheave, cable connections between the car and the sheave, an internal combustion engine, an electric generator mechanically connected therewith, a pumping apparatus arranged to be driven by the engine, said pumping apparatuscomof sections, electromagnetic-ally actuated valves for controlling said pumping apparatus, a motor actuated by fluid under pressure from the pumping apparatus and arranged to drive the sheave, an electrically actuated reversing valve for the motor, said generator being arranged to supply current for actuating the pump valves and the reversing valve, and a manually operated switch in the car for controlling said current.

I 38. In an elevator, acar, a hoisting apparatus comprising a driving sheave, cable connections between the car and the sheave,

an internal combustion engine arranged to run in one direction, an electric generator mechanically connected therewith, a pumping apparatus arranged to be driven by the engine, said pumping apparatus comprising a plurality of independently operable sections, electromagnetically actuated valves for controlling each of said sections, a motor actuated by fluid under pressure from the pumping apparatus andarranged to drive 'the sheave in either direction and at dilterent speeds, an electromagnetically actuated reversing valve for the motor, sa d generator being arranged to supply current for actuating the pump valves and the reversing valve, and a manually operated switch in the car for causing the current to actuate one or more of the pump valves and the reversing valve to vary the speed'of the motor and to determine its direction of rotation.

run in one direction, a throttle valve 39. In an elevator, a car, a hoisting apparatus comprising a driving sheave, cable connections between the car and the sheave, an internal combustion engine arranged to run in one direction, an electric generator mechanically connected therewith, a speed governor for the engine, a pumping appa ratus directly connected with the engine, said pumping apparatus comprising a plurality of im'lependently operable sections, electromagnetically actuated valves foricontrolling each of said sections, a fluid pres sure motor actuated by fluid under pressure from the pumping apparatus and arranged to drive the sheave in either direction and at different speeds, an electromagnctically a'ctuated reversing valve for the motor, an electromagnetic accelerator tor the engine, said generator being arranged to supply current foractuatiug the pump valves, the reversing valve and the accelerator, and a manually operated car-switch for controlling said current.

40. In an elevator, a car, a l'misting apparatus comprising a driving sheave, cable engine, a speed governor driven by the engine and arranged to act upon the throttle valve tocontrol the speed of the engine, a rotary pumping apparatus directly connected with the engine, said pumping apparatus comprising a plurality of independently operable sections of different capacities, electromagnctically actuated valves for controlling each of said sections, a fluid pressure motor actuated by fluid pressure from the pumping apparatus and arranged todrive the sheave in either direction and at ldiiterent speeds, an electromagnetically actuated reversing valve for the motor, an electromagnetic accelerator arranged to act in a plurality of steps upon the throttle valve to increase the speed of the engine, a wiring system, said generator being connected with the wiring system and arranged to supply current for controlling the pump valves, the reversingvalve and the accelerator, and a manually operated switch in the ca r for controlling said current;

ll. In an elevator, a car, a hoisting apparatus comprising a magnetic driving sheave,

a winding for magnetizing said sheave, an electromagnetically actuated brake, cable connections between the car and the sheave, an internal combustion engine arran ed to tbr the engine,- a speed governor driven by the engine and arranged to act upon the throttle valve to control the speed of the engine, a rotary pumping apparatus d'irectlyconnected with the engine, said pumping apparatus comprising a plurality of independently operable "sections of different capacities, elec tromagnetically actuated valves for controlling each of said sections, a fluid pressure motor actuated by fluid under pressure from the pumping apparatus and arranged to drive the sheave i either direction and at diflerent speeds, an electromagnetieally actuated reversing valve for the motor, an electromagnetic accelerator arranged to act in a plurality of steps upon the throttle valve to increase the speed of the engine, a wiring system, said generator being connected with the Wiring system and arranged to supply current for the sheave winding, the brake, the pump valves, the reversing valve, and the accelerator, and a manually operated car-switch for controlling said current.

42'. In an elevator, acar, a hoisting apparatus comprising a driving sheave, cable connections between the car and the sheave, an internal combustion engine, an electric generator mechanically connected therewith, a fluid pressure ower transmission mechanism between t e engine and the sheave, said mechanism comprising a pumping apparatus driven by the engine, and a motor driven by fluid under pressure from the pumping apparatus; and electromagnetic means for varying the output of the pumping apparatus to vary the speed of the motor, said means being actuated by current from the generator. v

43. In an elevator, a car, a hoisting apparatus comprising a driving sheave, cable connections between the car and the sheave, an internal combustion engine, an electric generator mechanically connected. therewith, a fluid pressure power transmission mechanism between the engine and the sheave, said mechanism comprising a pumping apparatus driven by the engine, and a motor driven by fluid under pressure from the pumping. apparatus; and electromagnetic means for varying the amount of fluld delivered to the motor from the pumping apparatus, to change the speed and effective torque of the motor, said means being actuated by current from the generator.

, In testimony whereof I havesigned my name to this specification in the presence of two subscribing witnesses.

CHARLES O; PEARSON.

I Witnesses:

FRANCIS B. WARD ELnA TUoH. 

